Displaying Routing Information for a Measurement System

1. A computer-implemented method for presenting routing information in a measurement system, the method comprising: receiving user input specifying a device in the measurement system; in response to the user input specifying the device, retrieving a topography description for the device, wherein the topography description indicates connectivity between a plurality of components in the device; analyzing the topography description to generate a graph representing the connectivity between the plurality of components in the device; receiving input specifying a source terminal of the device and a destination terminal of the device; in response to the input specifying the source terminal and the destination terminal, traversing the graph to automatically determine one or more routes through the device from the source terminal to the destination terminal, wherein each route specifies a path for routing a signal from the source terminal to the destination terminal through at least a subset of the components in the device, wherein the one or more routes are comprised in the device; and displaying the one or more routes on a computer display, wherein the one or more routes are useable to configure routing for the measurement system.

2. The method of claim 1 , further comprising: receiving user input selecting one of the one or more routes through the device, wherein the selected route specifies a first path for routing a signal through a first subset of the components in the device; wherein said displaying the one or more routes further comprises: displaying each component of the first path specified by the selected route.

3. The method of claim 1 , further comprising: automatically determining one or more potential side effects for one or more of the one or more routes through the device.

4. The method of claim 1 , wherein said displaying the one or more routes comprises: indicating that a first route of the one or more routes uses a respective sub-system in the device, wherein the use of the sub-system indicates one or more potential side effects for the first route.

5. The method of claim 4 , further comprising: receiving user input selecting the first route; wherein said displaying the one or more routes comprises: displaying the sub-system used by the first route.

6. The method of claim 1 , wherein the one or more routes include all possible routes from the source terminal of the device to the destination terminal of the device.

7. The method of claim 1 , wherein the topography description comprises a text file indicating connectivity between the plurality of components in the device.

8. The method of claim 1 , wherein the topography description comprises a graphical diagram visually indicating connectivity between the plurality of components in the device.

9. The method of claim 1 , wherein said traversing the graph to determine the one or more routes through the device comprises: traversing the graph to determine possible routes from the source terminal of the device to the destination terminal of the device.

10. The method of claim 1 , wherein said retrieving the topography description for the device comprises: retrieving the topography description for the device from a database, wherein the database stores topography descriptions for a plurality of devices.

11. The method of claim 10 , wherein said database is stored on a server computer system, and wherein said retrieving comprises: accessing the server computer system over a network; providing a device ID to the server computer system; and downloading the topography description for the device from the server computer system in response to said providing.

12. The method of claim 11 , the method further comprising: providing payment information to the server computer prior to said downloading the topography description, wherein the payment information is used to make payment for the topography description.

13. The method of claim 11 , further comprising: the server computer system receiving an updated topography description for the device; retrieving the updated topography description for the device; updating the one or more routes through the device using the updated topography description; and displaying the updated one or more routes.

14. The method of claim 11 , further comprising: the server computer system receiving registration information for the device prior to said receiving user input specifying the device.

15. The method of claim 14 , wherein the registration information for the device comprises: the device ID; and the topographical description for the device.

16. A computer-accessible memory medium that stores program instructions for presenting routing information in a measurement system, wherein the program instructions are executable by a processor to: receive user input specifying a device in the measurement system; in response to the user input specifying the device, retrieve a topography description for the device, wherein the topography description indicates connectivity between a plurality of components in the device; analyze the topography description to generate a graph representing the connectivity between the plurality of components in the device; receive input specifying a source terminal of the device and a destination terminal of the device; in response to the input specifying the source terminal and the destination terminal, traverse the graph to automatically determine one or more routes through the device from the source terminal to the destination terminal, wherein each route specifies a path for routing a signal from the source terminal to the destination terminal through at least a subset of the components in the device, wherein the one or more routes are comprised in the device; and display the one or more routes on a computer display, wherein the one or more routes are useable to configure routing for the measurement system.

17. The memory medium of claim 16 , wherein the program instructions are further executable to: receive user input selecting one of the one or more routes through the device, wherein the selected route specifies a first path for routing a signal through a first subset of the components in the device; and wherein to display the one or more routes the program instructions are executable to: display each component of the first path specified by the selected route.

18. The memory medium of claim 16 , wherein the program instructions are further executable to: automatically determine one or more potential side effects for one or more of the one or more routes through the device.

19. The memory medium of claim 16 , wherein to display the one or more routes the program instructions are executable to: indicate that a first route of the one or more routes uses a respective sub-system in the device, wherein the use of the sub-system indicates one or more potential side effects for the first route.

20. The memory medium of claim 19 , wherein the program instructions are further executable to: receive user input selecting the first route; wherein to display the one or more routes, the program instructions are executable to: display the sub-system used by the first route.

21. The memory medium of claim 16 , wherein the one or more routes include all possible routes from the source terminal of the device to the destination terminal of the device.

22. The memory medium of claim 16 , wherein the topography description comprises a text file indicating connectivity between the plurality of components in the device.

23. The memory medium of claim 16 , wherein the topography description comprises a graphical diagram visually indicating connectivity between the plurality of components in the device.

24. The memory medium of claim 16 , wherein to traverse the graph to determine the one or more routes through the device, the program instructions are executable to: traverse the graph to determine possible routes from the source terminal of the device to the destination terminal of the device.

25. The memory medium of claim 16 , wherein to retrieve the topography description for the device, the program instructions are further executable to: retrieve the topography description for the device from a database, wherein the database stores topography descriptions for a plurality of devices.

26. The memory medium of claim 25 , wherein the database is stored on a server computer system, and wherein to retrieve the topography description for the device, the program instructions are further executable to: access the server computer system over a network; provide a device ID to the server computer system; and download the topography description for the device from the server computer system in response to said providing.

27. The memory medium of claim 26 , wherein the program instructions are further executable to: provide payment information to the server computer prior to said downloading the topography description, wherein the payment information is used to make payment for the topography description.

28. The memory medium of claim 26 , wherein the program instructions are further executable to: retrieve an updated topography description for the device from the server computer; update the one or more routes through the device using the updated topography description; and display the updated one or more routes.

29. The memory medium of claim 26 , wherein the program instructions are further executable to: provide registration information for the device to the server computer prior to receiving user input specifying the device.

30. The memory medium of claim 29 , wherein the registration information for the device comprises: the device ID; and the topographical description for the device.